Functional Fabric

Introduction of several functional fabrics

Silver Ion Functional Fabric

Dual Anti-Microbial and Odor-Resistant Properties

The anti-microbial properties of silver functional fabric have been validated by numerous reputable institutions. Extensive testing and medical literature consistently highlight that silver fiber effectively inhibits bacterial growth and controls odor. It quickly absorbs deteriorating proteins, reducing unpleasant smells, which is why it’s widely used in fitness and activewear. Silver ions exhibit high biological activity in warm, humid environments, rapidly coagulating proteins in bacterial cell membranes to prevent their respiration and reproduction, effectively curbing bacterial growth and associated odors.

Functional Fabric

Static Electricity Elimination and Enhanced Blood Circulation

Silver functional fabric boasts excellent conductivity, resisting up to 5000V of static electricity while providing electromagnetic shielding. Even a small amount of silver fiber can quickly eliminate static generated by friction, promoting blood circulation and alleviating fatigue for a comfortable, static-free wearing experience.

Temperature Regulation

Silver functional fabric  is the most thermally conductive element. In hot weather, silver fiber rapidly dissipates skin heat, providing a cooling effect. Conversely, in cold weather, it helps retain body warmth by storing and reflecting radiant energy, ensuring optimal insulation and comfort.

All-Natural Composition

Silver functional fabric  is a naturally occurring element, free from harmful chemicals, making it safe for the human body.

Functional Fabric

Permanence

The functional properties of silver fiber are permanent. Rather than simply coating the surface, silver is integrated with the fiber to create a cohesive unit that won’t peel away. After undergoing 250 wash cycles, its functionality remains intact, with no decrease over time.

Graphene Functional Fabric

Graphene is a two-dimensional crystal made up of carbon atoms, only one atom thick, extracted from graphite materials. In 2004, physicists Andre Geim and Konstantin Novoselov at the University of Manchester successfully isolated graphene from graphite. It is currently recognized as the thinnest and strongest material in nature, with a strength 200 times greater than steel, while also exhibiting excellent elasticity, capable of stretching up to 20% of its original size.

As the thinnest, strongest, and most thermally and electrically conductive new nano-material discovered to date, graphene is often referred to as “black gold” and the “king of new materials.” Scientists predict that graphene has the potential to ignite a global revolution in disruptive technology and new industries, fundamentally changing the 21st century. Building on biomass graphene, we have developed a range of insulating materials, including inner warming fibers, warming fleece, and inner warming aerogel. Key features of these materials include strong far-infrared emission, antibacterial properties, moisture-wicking capabilities, UV protection, and anti-static characteristics.

Functional Fabric

Thermal Insulation (Far Infrared)

Graphene functional fabric significantly improves microcirculation in the human body. It enhances blood flow and increases the concentration and speed of blood cells, subsequently raising body temperature.

Durable Anti-Microbial Properties

Graphene materials offer long-lasting antibacterial effects, inhibiting the growth of bacteria and allergens, and effectively preventing dust mites.

Functional Fabric

Moisture Absorption and Breathability

Graphene functional fabric absorbs excess moisture from the skin, eliminating any feeling of dampness. It quickly disperses sweat and moisture, keeping the wearer dry and comfortable. Its excellent moisture-wicking properties ensure long-lasting freshness.

Anti-Static

Graphene is currently the material with the lowest electrical resistance. When combined with fabric, it can create excellent anti-static, electromagnetic shielding, or conductive textiles. This makes it suitable for specialized applications, such as creating anti-static mining workwear.

Functional Fabric

Eco-Friendly Material

Using plant straw as a raw material, advanced techniques are employed to open molecular chains and embed various metal templates, producing high-performance composite fiber materials. By utilizing aerospace technology, biomass graphene is developed from corn stalks, which is then combined with different fibers to enhance its properties.

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